schematic
简明释义
adj. 概要的,略图的;严谨的,有章法的;(思想、观念等)过分简单化的,程式化的
n. (技术用语)(尤指电子电路的)示意图
英英释义
单词用法
原理图,示意图 | |
方案设计 |
同义词
图示的 | 该示意图说明了流程。 |
反义词
例句
1.In the past two decades, the study of reading theory focused on schematic theory.
近二十年来,阅读理论的研究重点集中于对图式理论的研究。
2.Figure 5 shows a schematic overall topology of an "environment", from ISP to backend.
图5展示了一个示意性的“环境”整体拓扑图,从ISP到后端。
3.To reinforce the purpose of the table, here's a small list of rows from schematic.
为了强化表的意图,下面是Schematic中的一张小型行列表。
4.The name of the leak root is listed just above the table and is a hyperlink to a content schematic.
泄漏根的名称列于表上方,显示为一个超链接,链接到内容示意图。
5.The contents of all the elements indicated in the document structure schematic, grouped by element type.
在文档结构示意图中显示的所有元素的内容,按元素类型分组。
6.Figure 20 shows the EvaluateServlet content schematic.
图20显示了EvaluateServlet内容示意图。
7.You will see a pop-up window that shows the content schematic of the selected section (Figure 20).
您将看到一个弹出窗口,显示了选定部分的内容示意图(如图20 所示)。
8.Schematic design for infeed and power amplifier circuit.
输入电路和功率放大电路的原理图设计。
9.The engineer presented a schematic 示意图 of the new circuit design.
工程师展示了新的电路设计的示意图。
10.The schematic 结构图 helped us understand the layout of the building.
这张结构图帮助我们理解了建筑的布局。
11.In the biology class, we studied a schematic 示意图 of the human heart.
在生物课上,我们学习了人类心脏的示意图。
12.The software developer created a schematic 框架图 for the application architecture.
软件开发者为应用程序架构创建了一个框架图。
13.Before assembling the device, make sure to review the schematic 原理图 carefully.
在组装设备之前,请务必仔细查看原理图。
作文
In the world of design and engineering, the term schematic refers to a simplified representation of a system or concept. This representation often outlines the essential components and their relationships without delving into intricate details. For instance, when creating an electronic circuit, engineers utilize schematic diagrams to illustrate how different components like resistors, capacitors, and transistors connect and interact. These diagrams serve as a blueprint, enabling professionals to visualize complex systems in a more digestible format. The importance of schematic representations extends beyond engineering; they are also prevalent in various fields such as architecture, software development, and even education. In architecture, a schematic design might depict the layout of a building, highlighting key areas like rooms, entrances, and exits. This allows architects to convey their vision to clients and stakeholders effectively. Similarly, in software development, schematic flowcharts can outline the logic and processes within a program, helping developers and project managers understand the workflow before diving into coding.One of the primary advantages of using schematic diagrams is that they simplify communication. When working on collaborative projects, team members may come from diverse backgrounds with varying levels of expertise. A well-designed schematic can bridge the gap between technical jargon and layman’s terms, ensuring everyone is on the same page. For example, during a project meeting, a schematic diagram can help non-technical stakeholders grasp the project's scope and functionality without needing to understand every technical detail.Moreover, schematic representations facilitate problem-solving. When issues arise in a complex system, having a visual overview allows teams to quickly identify potential points of failure or miscommunication. By analyzing a schematic, engineers can trace back through the connections and interactions to pinpoint where things may have gone wrong. This efficiency is crucial in time-sensitive situations, where delays can lead to significant costs or setbacks.Despite their many benefits, it is essential to remember that schematic diagrams are not exhaustive. They provide a high-level view and should be complemented by detailed documentation and specifications for implementation. Relying solely on schematic representations without additional context can lead to misunderstandings or oversights. Therefore, while they are invaluable tools, they must be used judiciously within the broader scope of a project.In conclusion, the term schematic encompasses a vital aspect of design and communication across various disciplines. Whether in engineering, architecture, or software development, schematic diagrams play a crucial role in simplifying complex information, enhancing collaboration, and aiding problem-solving. As we continue to navigate increasingly intricate systems, the ability to create and interpret schematic representations will remain indispensable for professionals in many fields. Understanding this concept not only enriches our knowledge but also equips us with the tools to approach challenges with clarity and confidence.
在设计和工程的世界中,术语schematic指的是系统或概念的简化表示。这种表示通常概述了基本组件及其关系,而不深入复杂的细节。例如,在创建电子电路时,工程师利用schematic图来说明不同组件(如电阻器、电容器和晶体管)如何连接和相互作用。这些图表充当蓝图,使专业人士能够以更易于理解的格式可视化复杂系统。schematic表示的重要性超越了工程;它们在建筑、软件开发甚至教育等各个领域也很常见。在建筑中,schematic设计可能描绘出建筑物的布局,突出关键区域,如房间、入口和出口。这使建筑师能够有效地向客户和利益相关者传达他们的愿景。同样,在软件开发中,schematic流程图可以概述程序中的逻辑和过程,帮助开发人员和项目经理在深入编码之前理解工作流程。使用schematic图表的主要优点之一是它们简化了沟通。在协作项目中,团队成员可能来自不同背景,具有不同的专业知识水平。一个设计良好的schematic可以弥合技术术语与普通人之间的差距,确保每个人都在同一页面上。例如,在项目会议期间,schematic图可以帮助非技术利益相关者在不需要理解每个技术细节的情况下掌握项目的范围和功能。此外,schematic表示有助于解决问题。当复杂系统出现问题时,拥有视觉概述可以让团队快速识别潜在的故障点或沟通失误。通过分析schematic,工程师可以追溯连接和交互,以找出问题可能出在哪里。这种效率在时间敏感的情况下至关重要,因为延误可能导致重大成本或挫折。尽管有许多好处,但必须记住,schematic图表并不是详尽无遗的。它们提供高层次的视图,应补充详细的文档和实施规范。仅依赖于schematic表示而没有额外的上下文可能导致误解或疏漏。因此,虽然它们是宝贵的工具,但必须在项目的更广泛范围内谨慎使用。总之,术语schematic涵盖了设计和沟通的重要方面,适用于多个学科。无论是在工程、建筑还是软件开发中,schematic图表在简化复杂信息、增强协作和促进问题解决方面发挥着至关重要的作用。随着我们继续应对日益复杂的系统,创建和解释schematic表示的能力将对许多领域的专业人士保持不可或缺。理解这个概念不仅丰富了我们的知识,还为我们提供了以清晰和信心应对挑战的工具。